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Picosecond Pulsed-Periodic High-Peak Power Nd:YAG Laser Operationally Controlled by KTP-Based Pockels Cell. / Morozov, Vyacheslav; Olenin, Andrey; Tunkin, Vladimir и др.

в: Crystals, Том 12, № 3, 368, 01.03.2022.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Morozov, V, Olenin, A, Tunkin, V, Yakovlev, D, Rusov, V, Gorchakov, A & Doroganov, S 2022, 'Picosecond Pulsed-Periodic High-Peak Power Nd:YAG Laser Operationally Controlled by KTP-Based Pockels Cell', Crystals, Том. 12, № 3, 368. https://doi.org/10.3390/cryst12030368

APA

Morozov, V., Olenin, A., Tunkin, V., Yakovlev, D., Rusov, V., Gorchakov, A., & Doroganov, S. (2022). Picosecond Pulsed-Periodic High-Peak Power Nd:YAG Laser Operationally Controlled by KTP-Based Pockels Cell. Crystals, 12(3), [368]. https://doi.org/10.3390/cryst12030368

Vancouver

Morozov V, Olenin A, Tunkin V, Yakovlev D, Rusov V, Gorchakov A и др. Picosecond Pulsed-Periodic High-Peak Power Nd:YAG Laser Operationally Controlled by KTP-Based Pockels Cell. Crystals. 2022 март 1;12(3):368. doi: 10.3390/cryst12030368

Author

Morozov, Vyacheslav ; Olenin, Andrey ; Tunkin, Vladimir и др. / Picosecond Pulsed-Periodic High-Peak Power Nd:YAG Laser Operationally Controlled by KTP-Based Pockels Cell. в: Crystals. 2022 ; Том 12, № 3.

BibTeX

@article{209bb0f8359444169a405bc01039d218,
title = "Picosecond Pulsed-Periodic High-Peak Power Nd:YAG Laser Operationally Controlled by KTP-Based Pockels Cell",
abstract = "Electro-optical modulators are effectively used for ultrafast pulse lasers operation control. The scheme of picosecond pulse-periodic high-peak-power Nd:YAG lasers is composed of an active-passive mode-locked and negative feedback-controlled master oscillator and regenerative amplifier based on common end-diode-pumped Nd:YAG crystal. A double-crystal thermally compensated Pockels cell based on KTP crystals of the Y-cut direction is employed as a key control element. The cell was assembled using a pair of equal-length crystals grown according to high-resistivity technology. The scheme provides output pulses with energy up to 1.6 mJ, a duration of 25 ps at repetition rates tunable from 0 to 200 Hz. The laser operation stages are analyzed in detail. The scheme looks attractive and promising for developing advanced ultrafast laser systems with higher repetition rates, peak and, accordingly, average power levels. The Pockels cell based on KTP crystals expands the line of available fast electro-optical control elements, along with the previously used RTP ones. The factors limiting laser pulse energy and repetition rate are discussed. Parasitic nonlinear conversion in the crystals of the Pockels cell along the axis may play an essential role. The results of comparative measurements of the second and third harmonics made with the Pockels cells based on KTP and RTP crystals of both X-cut and Y-cut directions are presented. The minimum second and third harmonics efficiency levels observed in the Y-cut Pockels cells of the KTP crystal seem to be their important advantage.",
keywords = "Electro-optical crystals, KTP crystals, Operation control, Picosecond laser, Pockels cell, RTP crystals, Ultrafast laser pulses",
author = "Vyacheslav Morozov and Andrey Olenin and Vladimir Tunkin and Dmitry Yakovlev and Vladimir Rusov and Alexander Gorchakov and Sergei Doroganov",
note = "Funding Information: Funding: The work is partially supported by the Moscow State University Program of Development. Publisher Copyright: {\textcopyright} 2022 by the author. Licensee MDPI, Basel, Switzerland.",
year = "2022",
month = mar,
day = "1",
doi = "10.3390/cryst12030368",
language = "English",
volume = "12",
journal = "Crystals",
issn = "2073-4352",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "3",

}

RIS

TY - JOUR

T1 - Picosecond Pulsed-Periodic High-Peak Power Nd:YAG Laser Operationally Controlled by KTP-Based Pockels Cell

AU - Morozov, Vyacheslav

AU - Olenin, Andrey

AU - Tunkin, Vladimir

AU - Yakovlev, Dmitry

AU - Rusov, Vladimir

AU - Gorchakov, Alexander

AU - Doroganov, Sergei

N1 - Funding Information: Funding: The work is partially supported by the Moscow State University Program of Development. Publisher Copyright: © 2022 by the author. Licensee MDPI, Basel, Switzerland.

PY - 2022/3/1

Y1 - 2022/3/1

N2 - Electro-optical modulators are effectively used for ultrafast pulse lasers operation control. The scheme of picosecond pulse-periodic high-peak-power Nd:YAG lasers is composed of an active-passive mode-locked and negative feedback-controlled master oscillator and regenerative amplifier based on common end-diode-pumped Nd:YAG crystal. A double-crystal thermally compensated Pockels cell based on KTP crystals of the Y-cut direction is employed as a key control element. The cell was assembled using a pair of equal-length crystals grown according to high-resistivity technology. The scheme provides output pulses with energy up to 1.6 mJ, a duration of 25 ps at repetition rates tunable from 0 to 200 Hz. The laser operation stages are analyzed in detail. The scheme looks attractive and promising for developing advanced ultrafast laser systems with higher repetition rates, peak and, accordingly, average power levels. The Pockels cell based on KTP crystals expands the line of available fast electro-optical control elements, along with the previously used RTP ones. The factors limiting laser pulse energy and repetition rate are discussed. Parasitic nonlinear conversion in the crystals of the Pockels cell along the axis may play an essential role. The results of comparative measurements of the second and third harmonics made with the Pockels cells based on KTP and RTP crystals of both X-cut and Y-cut directions are presented. The minimum second and third harmonics efficiency levels observed in the Y-cut Pockels cells of the KTP crystal seem to be their important advantage.

AB - Electro-optical modulators are effectively used for ultrafast pulse lasers operation control. The scheme of picosecond pulse-periodic high-peak-power Nd:YAG lasers is composed of an active-passive mode-locked and negative feedback-controlled master oscillator and regenerative amplifier based on common end-diode-pumped Nd:YAG crystal. A double-crystal thermally compensated Pockels cell based on KTP crystals of the Y-cut direction is employed as a key control element. The cell was assembled using a pair of equal-length crystals grown according to high-resistivity technology. The scheme provides output pulses with energy up to 1.6 mJ, a duration of 25 ps at repetition rates tunable from 0 to 200 Hz. The laser operation stages are analyzed in detail. The scheme looks attractive and promising for developing advanced ultrafast laser systems with higher repetition rates, peak and, accordingly, average power levels. The Pockels cell based on KTP crystals expands the line of available fast electro-optical control elements, along with the previously used RTP ones. The factors limiting laser pulse energy and repetition rate are discussed. Parasitic nonlinear conversion in the crystals of the Pockels cell along the axis may play an essential role. The results of comparative measurements of the second and third harmonics made with the Pockels cells based on KTP and RTP crystals of both X-cut and Y-cut directions are presented. The minimum second and third harmonics efficiency levels observed in the Y-cut Pockels cells of the KTP crystal seem to be their important advantage.

KW - Electro-optical crystals

KW - KTP crystals

KW - Operation control

KW - Picosecond laser

KW - Pockels cell

KW - RTP crystals

KW - Ultrafast laser pulses

UR - http://www.scopus.com/inward/record.url?scp=85126618256&partnerID=8YFLogxK

U2 - 10.3390/cryst12030368

DO - 10.3390/cryst12030368

M3 - Article

AN - SCOPUS:85126618256

VL - 12

JO - Crystals

JF - Crystals

SN - 2073-4352

IS - 3

M1 - 368

ER -

ID: 35757131